摘要
The intricate dynamic feedback mechanisms involved in bone homeostasis provide valuable inspiration for the design of smart biomaterial scaffolds to enhance in situ bone regeneration.In this work,we assembled a biomimetic hyaluronic acid nanocomposite hydrogel(HA-BP hydrogel)by coordination bonds with bisphosphonates(BPs),which are antiosteoclastic drugs.The HA-BP hydrogel exhibited expedited release of the loaded BP in response to an acidic environment.Our in vitro studies showed that the HA-BP hydrogel inhibits mature osteoclastic differentiation of macrophage-like RAW264.7 cells via the released BP.Furthermore,the HA-BP hydrogel can support the initial differentiation of primary macrophages to preosteoclasts,which are considered essential during bone regeneration,whereas further differentiation to mature osteoclasts is effectively inhibited by the HA-BP hydrogel via the released BP.The in vivo evaluation showed that the HA-BP hydrogel can enhance the in situ regeneration of bone.Our work demonstrates a promising strategy to design biomimetic biomaterial scaffolds capable of regulating bone homeostasis to promote bone regeneration.
基金
This project is supported by theGeneral Research Fund grants from the Research Grants Council of Hong Kong(14120118,14202920 and 14204618)
The work was partially supported by Hong Kong Research Grants Council Theme-based Research Scheme(Ref.T13-402/17-N and AoE/402/20).
